CS260939B1 - Mechanism for forming machine's ram balancing - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a ram balancing device for a forming machine, which comprises a stand on which a base plate is arranged, connected by draw rods to an auxiliary yoke.

Pneumatic balancing is used to balance the punches of the forming machines, which lifts the punch itself with the tool and some other parts of the drive mechanism so that the clearances in the bearing of the mechanism are still limited upwards against the gravity force during operation. Pneumatic cylinders of different designs are used for this purpose. They are mostly single acting linear pneumatic engines with a fixed cylinder and a movable piston. The piston rod is connected directly to the forming machine ram via a bracket and is tensioned according to the arrangement. Another concept utilizes a plunger arrangement of a piston which is guided in a cylinder, raising directly the ram of the forming machine through the console. A disadvantage of the existing balancers is that the arrangement with the piston rod and the plunger piston requires sealing between the cylinder and the piston or the cylinder and the piston rod cuffs. the service life of the sleeves depends mainly on the quality of machining of the contact surfaces, their geometry and the amount of lateral forces acting on the piston or piston rod. Both the piston and the piston rod must be guided to each other. with little play, which is usually realized by sliding bearing. The sliding bearing of the piston and piston rod requires lubrication of the contact surfaces, especially at higher relative speed of moving parts.

These drawbacks are eliminated in the ram balancing device of the forming machine, which consists in attaching to the base plate of the forming machine a bellows spring, the rolling-over upper lid of which is in contact with the auxiliary caliper, the auxiliary caliper being connected by at least two rods. which are attached to the ram of the forming machine.

A further feature is that the rolling bearing of the upper cover of the bellows spring is formed by at least three rollers arranged on eccentric pins, the rollers resting on the webs of the forming machine base plate.

The advantage of the ram balancing machine is that its design allows the entire balancing to be carried out without sealing collars and, in the case of a rolling bearing of the upper spring cover, to eliminate the problems arising with the sliding bearing of the pistons and piston rods. The spring covers are structurally simple, they do not have to have as precise and quality machined contact surfaces as the original solution. Collecting condensate or lubricant from the treated compressed air is not as dangerous as in the case of steel cylinders and piston rods. Another advantage of the solution according to the invention is the possibility of increasing the air volume in the bellows spring.

Figure 1 shows a schematic arrangement of the balancing of rectangular shears in a front view, Figure 2 shows a configuration of the balancing of a single-acting crank press in a front view, Figure 3 is a front view of a ram balancing machine of a forming machine; Fig. 4 is a plan view of a ram balancing machine of a forming machine.

The ram 2 of the forming machine is connected by two tie rods ^{8 with} an auxiliary yoke 3 on which the upper cover 4 of the bellows spring 2 is supported. The bellows spring 2 is screwed to the base plate by means of studs 2, the base plate 2 is firmly connected to the frame 2 machinery. The bellows spring is also connected to the upper cover Д by means of studs 6, the auxiliary yoke 2 3® is provided in our case with four roller-mounted rollers 2- Each roller 2 I ^{е is} arranged on an eccentric pin 10, enabling adjustment of play between rollers 2 ^and base plate legs 11. 7, in the base plate 7 is provided with a hole 12 for engagement with the lower cap 14, which serves к closing the opening 22. the opening 12, if necessary further increasing the initial volume of the bellows spring 2 connects the inner space of the spring bellows ⁸ two additional vane, not shown. Each spring bellows 2 ^e 3 connected with a not represented pressure air distribution through the check valve 15 and a reducing valve 26 · reducing valve 16 is common to all devices for balancing ram 2 is used on the forming machine.

After the compressed air is supplied from the compressed air distribution system via the pressure reducing valve 16 and the non-return valve 22 ^{, the} bellows spring 2 ^is filled with compressed air and, via the auxiliary yoke 2 ^{and the} tie rod 2, lifts the ram 2 of the forming machine. When the ram 2 is pressed by the drive mechanism of the face 3 of the machine, the upper cover 4 of the bellows spring 2 moves downwards. Air pressure increases in the space of the bellows spring 2. The increase in pressure is small relative to the initial volume, so that the increase in the force balance at the lower dead center of the ram 4 is also small and any increase in pressure and hence the corresponding counterbalance force is not impaired by the forming machine.

The present arrangement of the ram balancing machine for forming machines can be used for mechanical presses, rectangular shears, press brakes and air bottom holders of eccentric presses.

Claims (2)

SUBJECT OF THE INVENTION An apparatus for balancing a ram of a forming machine, which consists of a stand on which a base plate is arranged, connected by means of tie rods to an auxiliary yoke, characterized in that a bellows spring (5) is mounted to the base plate (7) of the forming machine. the stored upper lid (4) is in contact with the auxiliary yoke (3), the auxiliary yoke (3) being connected by at least two rods (2) which are connected to the ram (1) of the forming machine. Machine according to claim 1, characterized in that the roller bearing of the upper cover (4) of the bellows spring (5) is formed by at least three rollers (9) arranged on eccentric pins (10), the rollers (9) resting on the webs. (11) base plates (7) forming machines.